Hydrostatic Pressure Effect on Lattice Thermal Conductivity in Si Nanofilms

“…Many authors have predicted theoretical calculations of the pressure effect on size-dependent LTC in InAs nanowires, Si nanofilms, and multilayer hexagonal boron nitride. [17][18][19] Theoretical models predict how pressure affects the lattice thermal conductivity (LTC) in various nanostructures, aiding in the design and analysis of their physical and thermal properties. 7 For In 0.53 Ga 0.47 As nanofilms, such analysis is crucial as it allows for precise LTC calculations under pressure.…”

“…It is now also applicable at the nanoscale. [17][18][19] In contrast, other used models, e.g. the DNA melting model, are specifically designed for DNA's thermal denaturation, considering nucleotide sequences and hydrogen bonds.…”

The role of pressure on lattice thermal conductivity and its related thermodynamical parameters in In_0.53Ga_0.47As nanofilms

“…Many authors have predicted theoretical calculations of the pressure effect on size-dependent LTC in InAs nanowires, Si nanofilms, and multilayer hexagonal boron nitride. [17][18][19] Theoretical models predict how pressure affects the lattice thermal conductivity (LTC) in various nanostructures, aiding in the design and analysis of their physical and thermal properties. 7 For In 0.53 Ga 0.47 As nanofilms, such analysis is crucial as it allows for precise LTC calculations under pressure.…”

“…It is now also applicable at the nanoscale. [17][18][19] In contrast, other used models, e.g. the DNA melting model, are specifically designed for DNA's thermal denaturation, considering nucleotide sequences and hydrogen bonds.…”

The role of pressure on lattice thermal conductivity and its related thermodynamical parameters in In_0.53Ga_0.47As nanofilms

Nanosize lattice-structured-based model dependence to calculate melting temperature and other related thermodynamical parameters in metallic nanoparticles

Lindemann’s Role of Melting, Debye Temperature, Dimensionless Mass and Bond Energies for Si-based Tetrahedral Compound Semiconductors